The answer depends on what the "number machine" does. For example, if it quadruples, the input should be 10; if it halves, the input should 80; if it adds 10, the input should be 30; and so on.
I doubt it. You can get 7,676,760 different groups of 6 numbers out of a bucket of 40 numbers. No website is going to give you that much output for a single input.
Inputs are factors of production (land, labour, capital and entreprenuership) and output is the final good or service produced using the factors of production through a production process. Adding on, if per say you have 40 acres of land, you want to build on the acres, the input into that will take time and so will the output for the result. Another is say your are doing research where the person your doing research for has like 20,000 articles to input into .pdf format, this will take time and money also.
The rule of the pattern 50 40 45 35 is subtract 10 then add 5.
There is no rule 11. I've seen the movie about 30-40 times and I know all the rule but there is no 11.
The mechanical advantage of the machine is 2. Mechanical advantage is calculated by dividing the output force by the input force. In this case, 80 N (output force) divided by 40 N (input force) equals 2.
No, it's not valid to have an output of 150 Joules when the input is only 110 Joules since it violates the principle of conservation of energy. The output of work cannot exceed the input energy, so the output work should not be greater than the input work in this scenario.
The mechanical advantage of a lever is calculated by dividing the length of the input arm by the length of the output arm. In this case, the mechanical advantage would be 50 cm (input arm) divided by 40 cm (output arm), which equals 1.25. Therefore, the mechanical advantage of the lever is 1.25.
The answer depends on what the "number machine" does. For example, if it quadruples, the input should be 10; if it halves, the input should 80; if it adds 10, the input should be 30; and so on.
True ~ LiL' Diablo
The mechanical advantage of a simple machine in this scenario would be 5. This is calculated by dividing the output force (200 newtons) by the input force (40 newtons).
The LM317 voltage regulator can be set to any output voltage from 1.2 V to 37 V. You must keep the input voltage between the maximum input voltage and the drop-out voltage for proper operation. The maximum input voltage the LM317 is guaranteed to bear is 40 V. The LM317 is guaranteed to operate when the input voltage is at least 3 volts above the set output voltage.
I doubt it. You can get 7,676,760 different groups of 6 numbers out of a bucket of 40 numbers. No website is going to give you that much output for a single input.
The mechanical advantage would be 5, calculated as the output force (200 N) divided by the input force (40 N). This means that the machine amplifies the input force by a factor of 5.
A: The answer deviate from IC to ic . It is defined not as voltage but rather as unit loads. In other words there is a limit to how many inputs can be tied together along with how many units can be driven for reliable operation. So basically is a question of current sink and source for both input and output which strictly relates to reliable triggering voltage levels. If I remember i used the 8 for unit load for the input and 40 unit load for the output. These numbers are general use for design.
AnswerTry replacing the input and output speed sensors located on the left side of the tranny and reset the computer. They will run around $40 to $50.
Inputs are factors of production (land, labour, capital and entreprenuership) and output is the final good or service produced using the factors of production through a production process. Adding on, if per say you have 40 acres of land, you want to build on the acres, the input into that will take time and so will the output for the result. Another is say your are doing research where the person your doing research for has like 20,000 articles to input into .pdf format, this will take time and money also.